RU2007122456A - ENCODING DEVICE, CODING METHOD AND PROGRAM FOR HIM AND DECODING DEVICE, DECODING METHOD AND PROGRAM FOR HIM - Google Patents

Abstract

1. An encoding device for encoding sequential image data and interlaced image data corresponding to this sequential image data, comprising a first coding unit configured to encode picture data constituting the interlaced image data to generate first encoded data and to decode and recompose the first encoded data for generating remapped image data; an upsampling processing unit, configured to upsample the resampled image data generated by the first coding unit to generate image data with the same resolution as the sequential image data; and a second encoding unit configured to encode picture data constituting the sequential image data using the image data generated by the upsampling processing unit as prediction image data for generating second encoded data. The encoding device according to claim 1, wherein the second encoding unit generates the second encoded data using the predictive image data generated by the upsampling processing unit corresponding to the picture data in the interlaced image data assigned the same time stamp as the picture data in the sequential image data to be encoded. 3. The encoder according to claim 1, wherein the oversampling processing unit performs inte

Claims (15)

1. An encoding device for encoding sequential image data and interlaced image data corresponding to these sequential image data, comprising a first encoding unit configured to encode picture data constituting interlaced image data to generate first encoded data and decode and re-compose the first encoded data for generating rearranged image data; an increased frequency sampling unit, capable of sampling at an increased frequency the rearranged image data generated by the first encoding unit to generate image data with the same resolution as the serial image data; and a second encoding unit, configured to encode picture data constituting sequential image data using image data generated by the processing unit at an increased sampling frequency as predictive image data for generating second encoded data. 2. The encoding device according to claim 1, in which the second encoding unit generates second encoded data using the prediction image data generated by the high-frequency sampling processing unit corresponding to image data in the interlaced image data that are assigned the same time stamp as image data in the sequential image data to be encoded. 3. The encoding device according to claim 1, wherein the increased frequency sampling processing unit interpolates to generate prediction image data using, as the prediction image data, only image data in interlaced image data that are assigned the same time stamp as image data to be encoded by the second encoding unit. 4. The encoding device according to claim 1, wherein the increased frequency sampling processing unit interpolates to generate prediction image data using, as the prediction image data, only image data in interlaced image data that are assigned the same time stamp as image data to be encoded by the second encoding unit, and image data paired with image data in interlaced image data. 5. The encoding device according to claim 1, wherein the increased frequency sampling processing unit interpolates to generate the first prediction image data using only image data in interlaced image data that are assigned the same time stamp as the image data to be encoding by a second encoding unit, and performs interpolation to generate second prediction image data using image data in interlaced image data that are assigned the same ca the second time stamp that both the image data to be encoded by the second encoding unit and the image data paired with the image data in the interlaced image data and the second encoding unit performs encoding by selecting the predictive image data with a smaller difference from the image data to be encoded between the first prediction image data and the second prediction image data. 6. The encoding device according to claim 1, wherein the first encoding unit and the second encoding unit perform in-field / intraframe encoding as encoding. 7. The encoding device according to claim 1, wherein the second coding unit selects prediction image data minimizing a difference from the image data to be encoded among the prediction image data generated by the intra-field / intra-frame prediction using the image data to be encoded, the prediction image data generated by the prediction and (or) motion compensation, and the prediction image generated by the high-frequency sampling processing unit, and encodes the difference between n dlezhaschimi encoded data images and selected predictive image data. 8. The encoding device according to claim 1, further comprising a multiplexing unit configured to multiplex the first encoded data generated by the first encoding unit and the second encoded data generated by the second encoding unit. 9. An encoding device for encoding sequential image data and interlaced image data corresponding to sequential image data, comprising first encoding means for encoding image data constituting interlaced image data, for generating first encoded data and for decoding and re-composing the first encoded data to generate permuted data Images; increased frequency sampling means for higher frequency sampling of rearranged image data generated by the first encoding means for generating image data with the same resolution as the serial image data; and second encoding means for encoding the image data constituting the sequential image data using the image data generated by the processing means with an increased frequency as predictive image data for generating second encoded data. 10. A method of encoding sequential image data and interlaced image data corresponding to sequential image data, including a first step in which image data constituting interlaced image data is encoded to generate first encoded data, and first encoded data is decoded and transposed to generate rearranged image data; a second step in which the rearranged image data generated in the first step is sampled at an increased frequency to generate image data with the same resolution as the sequential image data; and a third step in which picture data constituting sequential image data is encoded using the image data generated in the second step as predictive image data to generate second encoded data. 11. A decoding device for decoding the first encoded data obtained by encoding sequential image data and the second encoded data obtained by encoding interlaced image data corresponding to serial image data, comprising a first decoding unit configured to decode second encoded data, a high-resolution sampling processing unit frequency, configured to interpolate the first forecast image data generated by encoding in a first decoding unit for generating second predictive image data, and a second decoding unit configured to decode the first encoded data based on second predictive image data generated by the high-frequency sampling processing unit. 12. A decoding device for decoding first encoded data obtained by encoding sequential image data and second encoded data obtained by encoding interlaced image data corresponding to sequential image data, comprising: first decoding means for decoding second encoded data; processing means for higher frequency sampling for interpolating the first prediction image data generated by decoding in the first decoding means for generating second prediction image data; and second decoding means for decoding the first encoded data based on the second prediction image data generated in the increased frequency sampling means. 13. The decoding method of the fifth embodiment of the present invention is a decoding method for decoding the first encoded data obtained by encoding sequential image data and the second encoded data obtained by encoding interlaced image data corresponding to sequential image data, including the first step of decoding second encoded data; a second step in which the first predictive image data generated by decoding in the first step is interpolated to generate second predictive image data; and a third step in which the first encoded data is decoded based on the second prediction image data generated in the second step. 14. A program executed by a computer for encoding sequential image data and interlaced image data corresponding to sequential image data, which causes the computer to execute the following steps in a first encoding subroutine of image data constituting interlaced image data to generate first encoded data and decode and recompile the first encoded data for generating rearranged image data; a second sampling subroutine with an increased frequency of rearranged image data generated by the first subroutine to generate image data with the same resolution as the serial image data; and a third encoding subroutine of the image data constituting the sequential image data using the image data generated in the second subroutine as predictive image data for generating the second encoded data. 15. A program executed by a computer for decoding the first encoded data obtained by encoding sequential image data and the second encoded data obtained by encoding interlaced image data corresponding to sequential image data, which causes the computer to perform the following steps: first decoding program of second encoded data, second subprogram interpolating the first prediction image data generated by decoding in the first subprogram e, for generating second prediction image data, and a third decoding subroutine of the first encoded data based on the second prediction image data generated in the second subroutine.